Business machine



Jan. 22, '1946.

H. C. YAEGER BUSINESS MACHINE Filed June 28, 1944 sheets-sheet 1 Jan. 22, 1946 H. c. YAEGER BUSINESS MACHINE Filed June 28, 1944 7 Sheets-Sheet 2 v mvENToR zy d yaeye M Afro RNEY

H. C. YAEGER BUSINESS MACHINE Jan. 22, 1946.

Filed June 28, 1.944

7 Sheets-Sheet 5 INVENTOR BY y l yaey w ATTORNEY v Jan. 22, 1946. H' Q YAEGERv BUSINESS MACHINE Filed June 28, 1944 7 sheets-sheet 4 ATTORNEY Jan. 22, 1946. H. c. YAEGER BUS INESS MACHINE Fild June 28, 1944 7 sheets-sheet 5 mvENToR atz 94.5762 ATTORNEY,

Jan. 22, H. Q 'YAEGER BUSINESS MACHINE A Filed June Y28, 1944 7 Sheets-Sheet 6 144 i mvem'oR BY Haft @.yzeet Jan. 22, 1946. HQ c. YAEGER f 2,393,441

BUSINESS MAHINE Filed June 28, 1944 7 Sheets-Sheet '7 MF .W 56S 7 l, f I f f ,f(` njmn. ner; fr, A u

204/0 EL@ f/,qf n Z Patented Jan. 22, 1946` BUSINESS MACHINE Harry C. Yaeger, West Hartford, Conn., assignor to Underwood Corporation, a corporation of Delaware Application June 28, 1944, Serial No. 542,595

(ci. 19t-ss) f 24 Claims.

This invention relates to typewriting and other business machines having a carriage movable on a frame, and with regard to certain more specific features thereof relates to carriage positioning, and particularly also to selective car-- riage positioning devices such as selective, power.- operated carriage returning devices.

'I'he invention in the illustrated form of embodiment herein shown and described is applied to a typewriting machine and discloses various improvements whereby selective motor-operated carriage returns to a plurality of positions, may be emciently and conveniently realized lwith extioning carriage return drive controlling mechanism embodying power means for efiectuating said drive, said power operating means being preferably also utilized to the end of power-conditioning the carriage return mechanism for selected extents of returns.

Many other objects and features will be in -part evident and in part pointed out, particularly penditure of a minimum of energy and effort on the part of the operator. However, as will be evident to those skilled in the art, some features of the invention are not limited in their application to carriage returning mechanism, but may be advantageously employed also for carriage positioning purposes in general, for example for column selecting tabulation.

It is one of the objects of the invention to provvide improved means for vpower returning a carriage selectively to a number of predetermined positions.

It is another object of the invention to provide carriage return means of the power driven, selective return species, which is efficient in operation and which is suited and constructed for doing versatile work, thus increasing greatly the usefulness of the machine.

Another object of the instant invention is to provide efficient and simple means which through the agency of simple power means and under the control of light-touch, differentially-selective operations of key-means is adapted to institute power returns of the carriage selectively to a number of different, predetermined positions.

A further object of the invention is to devise in connection with manually controllable selective means for returning a carriage to different predetermined positions, eiiiciently and reliably operative mechanism whereby said carriage return means functions automatically to return the carriage to a particular one of said predetermined positions after the carriage reaches a line-enddeflning position.

It is also an object of the invention to provide in combination yvith means which are selectively settable to establish different positions of arrest for the carriage, efficient power-setting agencies therefor, thus reducing the work and resultant fatigue of the operator to a minimum.

Stili a further object of the invention is to contrive improved, eillcient, and reliably funcas the description of a preferred embodiment of the invention proceeds.

Referring now to the drawings:

Figure 1 is a sectional sideelevation of a typewriting machine taken along linel I.I of Figure 3 and embodies most o1' the mechanism of the invention.

Figure 2is a front perspective view and depicts the left end of the typewriting machine carriage, having thereon a power line-spacing mechanism built in accordance with the patent to Helmond No. 2,262,676, dated November 11, 1941.

Figure 3 is a sectional front elevation of the f mechanism of the invention, taken approximately' along line 3--3 of Figure 1-.

Figure 4 is a skeleton front perspective view, l

illustrating the devices whereby the machine is conditionable for selective returns, and illustrating also certain locking devices whereby to prevent a misoperation and damage to themachine.

In Figure 5 is shown in front elevation a part of a carriage return drive contained in a housing and agreeing substantially with that -of the said patent to Helmond.

Figure 6 is a skeleton front elevation 4similar to Figure 3, with the mechanism, by depression of a carriage return key designated Full Ret., conditioned for returning the' carriage to an extreme one of three selectable positions.

In Figure 7, which is a fractional side elevationthe return key designated Full Ret. is shown operated and a power mechanism is starting'to condition the machine for a full return. v

Figure 8 shows in sectional side elevation a transitory condition of the carriage return controlling mechanism which follows depression o a key designated Intermed. Ret. In Figure 9, which is also a sectional side elevation, the machine has Just been'conditioned for a short return under the selective` control of a key designated Short Ret.

Figure 10 is a view similar to Figure 9 but with the mechanism conditioned for a full return of the carriage.

Figure 11 is a fractionalfront elevation similar to Figure 3, but depicts the machine in a state for doing regular correspondence work, that is a operation during carriage returns said members 24 carry state in which auomatically initiated carriage returns are eliminated. The view shows the typing instrumentalities locked against operation by advancement of a line-end margin stop -to an extreme advanced position.

' Figure 12 is a front sectional view taken along line I2-l2 of Figure 1, and illustrates a mechanism whereby certain control keys o! the machine, other than type keys, are locked against and are depressible only one at aptime.

Figure 13 shows in side elevation a known power type action and also shows locking means associated therewith.

Figure 14 is a sectional front elevation similar to Figure 3 but travel of the carriage to a lineend position has Just conditioned the machine for a return or the carriage to an intermedaite position.

Figure 15 shows in front elevation a series ofl carriage return stops' and a line-end carriage stop, the latter equipped with a control for initiating a power return of the carriage to a full return position.

Figure 16 is similar to Figure 15 but illustrates how a short return is called into operation.

Finally, Figure 17 is a rear elevation of a lineend carriage-stop equipped with modiiied, adjustable control means whereby automatic carriage returns of predetermined extents may be instituted automatically incidental to the arrival of the carriage in a line-end position. v

Referring now more particularly to Figures 1 and 3, a machine 'frame work designated as F supports the working parts of the machine and includes spaced, left and right side plates 23 connected by a number of cross members, one of which may consist of a track way 2| along wlch a carriage 22 travels on anti-friction rollers 23. The carriage 22 is composed of upright members 24 rising from opposite 'ends of a rail 25, and rotatably therebetween 'a platen roller 23 whereagainst types 21 are adapted to strike. 'I'he latter are provided on type bars 2-3 which swing for operation about a curved fulcrum wire 33, in a manner well known in the art.

Associated with the carriage is a usual draw band device, not shown, which continuously tends to advance the carriage in letter-feed direction, leftwardly as seen from Ithe front of the machine. A carriage-feed escapement device, not shown, but of` conventional design, controls advance movement of the carriage, said escapement device being capable t hold the carriage in the various letter-feed positions, but permitting atV all times return movement of the carriage 22, rightwardly as seen from the front of the machine.

The machine may embody for the type bars 23,

power actuating devices, of the character disclosed in the patent to Harry C. Yaeger, No. 2,254,764 of September 2, 1941, and illustrated presently in Figure 13. Said type bar actuating` devices comprise for each .type bar anactuator element 32 reaching rearwardly from ythe lower end of a pendant arm 33 and articulated thereto. Said pendant arms are arranged alongside of each other and are iulcrumed on a common pivot wire 34 extending transversely of the machine, said wire being contained in a cross member 35 of the frame work F and having vertical slots cut therein for location and guidance of the pendant arms 33. Forwardlyv of the pendant arms and in individual rolling contact with front faces thereof are a series of upright levers 33 which have operating connections with the type bars, in.

assaut the form or pull links 31. The levers 33 are pivoted on a straight transverse pivot wire 33, supported similar to the member 35 by a tie liar 4l having vertical slots, see Figure l. The actuator elements 32 are disposed in a straight row alongside of each other and have each a snatch pawl 4I normally posed directly over but clear of a transverse, toothed, constantly driven, power shaft 42. The normal disposition of each actuator element 32, together with its snatch pawl, is determined by springs 43l which urge said elements 32 upwardly and rearwardly to the position seen in Figure 13, in which the rear end ci' each of said elements 32 is gaged against a transverse plate 44, and in which further rearward movement of the actuator element is prevented by the bottoming of the pendant arm 33 in its guide slot.

For rendering said actuator elements 32 selectively active to drive their associated types, each actuator element is adapted to be lowered under control of a type key 45, about its front end, thereby to establish an operating connection between its snatch pawl and the actuating shaft 42. Said type keys are in the form of key levers having hook elements 43 overlying lateral protuberances on the several actuator elements. A common pivot rod 43 supports all said type-key levers 45 at the rear, such rod being contained in a transverse frame member 53. At the front the key levers are guided in vertical slots of a comb plate 5|, and are normally abutting the upper limits of the said slots under inuence of springs 52 acting upon the key levers near their rear ends and being attached to a common anchorage plate 53. The transverse plate 44 has a downwardly reaching comb portion 54 'for guidance oi the actuator elements in ilxed vertical planes.

It is to be understood that the carriage executes a letter-feed step in response to each actuation of a type bar, as well as also in response to each operation of a space bar, the latter being not shown.

45 Line end and carriage return stops The carriage end-members 24 mount a toothed rack 55 extending longitudinally of the carriage and such rack has adjustably locatable therealong three carriage return stops, designated, 53s, 531 and 531', having different downward reaches. Also 'supported on the rack 55 is a line-end-deiining stop 51. i

Protruding through an opening 53 in a horizon- 55 tal plate 30 supported by a housing 3l, is a counterstop '32 vwhich is adapted by selective cooperation with the stops 53S, 531, 53" to restrict return travel of the carriage to dilIerent limits as defined f to the rear of the trackway 2| and thus may be .60 said to form part of the general frame work F of the machine. The counterstop 3.2, as is best seen in Figures 3 and 4, constitutes the upper end of an upright arm 53 pivoted at its lower end upon a 55 headed stud 33, the arm having a slot 34 through which said stud protrudes, and being normally held in as far an upward position as allowed by the slot 34, by a spring 35 attached to an ear 33. The spring 35, it will be seen from Figure 3, exerts also a pull to the right, and thereby maintains normally the counterstop 32 in engagement with the right side of the plate opening 53. With the `counterstop 32 in the normal position seen in Figures 1, 3, and 4. a return movement ofthe carriage will be terminated by the engagementof the by these return stops. The housing 3I'iis secured snaai c restricted to positions defined by the return stops 88I and 88", it being noted here that the exponents in the designations 883, 88E-and 887 stand respectively forshort return, intermediate return and full return.

From the foregoing it will be seen that the stops 885, 881, 881' and the counterstop 82 constitute abutments oppositely on the frame and the carriage, and thatvthese'labutments, by selectively positioning the counterstop are variously selectedv 'for cooperation to establishdierent limits of return for the carriage. i"

Power return mechanism As has been stated hereinbefore, the carriage is l normally held stationary kunder control of the usual escapement device. Return of the carriage to any of the positions defined by the stops 88B, 881, 881', may be effected selectively under control of keys S, I, and F, depression .of these keys causing return of the carriage by motor power respectively to the positions defined by the return stops 88B, 881, 881". c

The machine 4has an electric motor 81, Figure '3, overlying a bed plate 88, Figure 1, and from said motor extends rightwardly a motorshaft 18 ending in a gear pinion 1|. Figure 5, said pinion driving during use ofthe machine a gear 1,2 faston a short. spindle or shaft '18. Said gear and pinion 1|, 12 are contained in a casing 14 which affords also journals for the shafts 18 and 18.

A flanged pulley 18 is normally loose on the position vdetermined by abutment of the gear sectorllfwith a stop 88 on the carriage end. The

pulley 88 being geared to the sector 88..it followsv that the normal position of the pulley isdeter-V mined by thel engagement of the gear sector I8 with said stop 88. The cam 82 acts upon the line-space lever 88 through the 'medium .of a roller 81 and the leverv 88, when actuated, operates a pawl 88 for imparting a line spacing operation to a vratchet wheel |88 fast on. the platen shaft 8l.

I'he draw band actuating pulley 18 inthe casing 14 has a hub |8I, Figure 5. to which is attached the inner end of a spiral'take-up spring I 82 anchored at its outer end to a stationary drum |88. lSaid spring |82 serves to rotate the'pulley 18 tol keep the draw 'band taut at all times regardless of the position of the carriage. However, in no case -iss the tension of the take-up spring |82 suiiicient to overcome the return spring 84 for the line spacer sector 88.

Whenever the clutch connection is made between the gear 12 and the clutch collar 11, there is imparted a rotative movement to the pulley 18, causing the band 1 8 to wind on the latter. The

` pull thus imparted to the band ilrst turns the short shaft 18 and has attached thereto, for windy ing thereon, a carriage-return draw-band or tape 18. The spindle 18 rotates normally without rotating the' pulley 18. Said gear 12 has clutch teeth and the pulley 18 has splined thereto a toothed clutch collar 11 which is movable along the spindle 18 from an open.clutch position, see Figures 3 and 5, leftwardly to a closed clutch position. The spline connection between the clutch collar 11 and the pulley 18 is represented at 18, Figure 5, and may be formed by one or more splines extending lengthwise of the spindle 18 into spline grooves provided in the bore of the pulley 1l. A rock shaft 88, V.iournaled in the casing 14,

has fixed thereto a yoke 8| reaching into a circurnferential groove 82 of the clutch collar 11. Said rock shaft 88 when turned clockwise of Fisure 5 establishes a clutch connection between the gear 12 and the clutch collar 11 and if so turned causes the carriage return strap 18 to wind on the pulley 18.

Thestrap 18, see Figure 3. passes through an opening in the casing, over a guide pulley 83 supported on an arm extending from the casinganrl thence over another guide pulley 85 on the housing 8|, to a pulley 88 fixed to a line-space actuating shaft 81 journaled upon the left carriage end piece 24. The said tape 18 is attached to said pulley 88 and normally wound for about a turn therearound, so that a rightward pull on the tape 18 will rotate `said pulley 88 and its shaft 81 clockwise of Figures 2 and 3. A bevel pinion 88 is ilxed to said shaft 81 and meshes with a. bevel-gear sector 88 which is rotatable about a fulcrum 8| provided on the left carriage end 24f Said sector 88 is in-tegrai with a cam 82 adapted to actuate a line-space lever 88 .upon anti-clockwise rotation thereof, Figure 2. 'A spring 84 yieldably acts upon the sector 88 to urgethe same to a normal pulley 88, thereby' imparting a line spacing operation to' the platen, and upon limited movement of gear sector 88, the band will pick up and draw the carriage 22 rightwardly in carriage return direction.

The powe.' drive and yconnections to the linespacing mechanism lust described are substantially as disclosed in the aforesaid patent to Hel'- mond. The returns are terminated in response t0 engagement of any of the aforesaid return stops with the counterstop82, in a manner to .be described later.

The clutch closing yoke al 1s biased to assume' normally the open clutch position seen in Figures 4Zi and l5, but devices are provided whereby. y

upon depression of any one of the aforesaid car- Vriagev return keys B, I, or F, agencies are called into operation to move said yoke to closed clutch position under power supplied -byl the electric motor 81. As seen in Figures l and 4, the constantly driven, toothed power shaft 42 has posed thereover, near its right end, an actuator element |88 similar to-those numbered 82 for the type instrumentalities, and is pivotally attached at its front end, for guidance, to a pendant arm |88. At the rear the actuator |88 has a link connection |81 with a bell crank |88 pivotally supported upOn the right hand yside wall 28 oi' the machine. Said bell crank |88 has a pin-and-fork connection 8 withan arm which forms part of'a rockable structure including also a rock shaft ||2 and a rearwardly reaching arm I|8, the apex of the latter constituting a gear tooth and being in constant mesh with a toothed element ||4 turnably carried on the yokeshaft 88. Saidelement H4 carries a pin H5 wherewith an arm ||8 fast` on the yoke shaft 88 is normally in. engagement. The parts just described are normally positioned .-'4 -a's seen in Figures 1 and 4 under the influence oi a spring ||1 which exerts arearward pull upon the bell crank |88. A bracket ||81having spaced lJournal, ears for the shaft |2 and is fastened upon the casing 14 by screws ||8. The actuator |88 carries a snatch pawl |28, and a spring |'2|, exerting an upward and rearward pull on the actuator link |88, maintains, the snatch pawl |28 normally in a rearward position, clear vof the power shaft 42, the actuator being gaged against .the underside of the transverse plate 44.

To bring about an actuation of the actuator |05 by a depression of any one of the several carri e return keys, S, I, or F, the latter are severly adapted to operate a connector mechanism comprising a lever |22 and a hook element |23 rising therefrom and overlying a lateral ear |24 on the actuator link |05. The lever |22 is pivoted on the rod 48 in a manner similar to the type-key levers 45, and when depressed by operation of any one of the carriage return keys, the hook element |23 will lower the snatch pawl |20 into engagement with the toothed 'power shaft 42, see Figure '1. Inasmuch as the power shaft 42 rotates continuously, there will ensue in the manner depicted in Figures 9 and 10, immediately a forward displacement of theactuator link |05 and this displacement yoke shaft 80 by the parts |01 to ||4 and by a spring |28 connecting the arm ||6 resiliently to follow the toothed element, thereby to effect closure of the carriage return clutch 11. As the yoke assumes closed clutch position, a latch member |29 carried pivotally on a stud |38 on the housing 6|, and having an ear normally bearing on a short dwell on the element |4, swings under the tension of a spring |23, to place said ear into an obstructing relation with a shoulder ||4 of said element, see Figure 6, thereby to detain the clutch yoke 8| in closed clutch position pending conclusion of the ensuing carriage return. Concomitantly with the actuator link |05 approaching its fully operated position, see Figures 9 and l0, there becomes positioned in the path of an upwardly advancing tooth on the power shaft 42 a spur |25 which is integral with the actuator link |05, and causes the actuator link |05 to be forced upwardly until the snatch pawl |20 finally clears the power shaft 42. In order that the actuator link may return immediately to normal position under the power of the spring |2|, independently of the detained mechanism leading to the clutch yoke 8|, the link |01 is con'- nected with the actuator |05 by a pin-and-slot connection |26.

The return keys is carried on a lever |21 which is pivoted on the same rod 38 that also serves to pivot the type action levers 36. Said lever |21 has integral therewith an ear |30 overlying the front end of the actuator engaging lever |22, wherefore the latter will be actuated as seen in Figure 9, upon each operation of the key S.

The carriage return key I surmounts a stem |3| from which there extends laterally a headed rpin |32 lying in an upwardly forked end of the lever |21 whereon the key S is carried. Said stem |3| is slotted as at |34 and an arm |35, constituting part of a pivoted bail generally designated by the reference character |36, has a headed pin |31 extending through said slot |34. It will be seen that the arm |35 and the lever |21 constitute a guiding linkage for the stern |3| and that upon depression of the key I, the lever |21, and in turn the lever |22, will be operated, lowering thus the actuator link |05 and its pawl |20 for operation by the power shaft 42.

As viewed in Figure 10, also the depression of the full carriage return key F will effect an operation. of the actuator engaging lever |22 to cause a carriagereturn. Said carriage return key surmounts a leg |40 which hasl a pivotal connection with an arm |4| forming part of the bail |36. Vertical guidanceof the key F is se'- cured by associating with the upper end of the leg |40 a guide arm |42 having a stationary pivotal support as at |43. Normal position of the will be transmitted to the ases,

ing operation for key F and the vbail |36 is established by an arm |45 branching upwardly from the arm |35 and engaging a bar |46, to be later described, under tension of a spring |44 arranged intermediate a pendant `portion of the guide link |42 and the said leg |40, see Figure 4. In operating the bail |36 by the key F, see Figure 7, the left bail arm |35 is swung downwardly and a pin |41 thereon, by engagement with an underlying nose |48 on the lever |21, effects an actuation of the lever |21 and, therefore, also an operation of the lever |22. The bail arm |35 descends idly with respect to the key stem |3| of the key I, by .reason of the pin and slot connection |35, |31. An upward reach |50 of the bail arm |4|, see Figures 4 and l0, lends to the key F lateral stability, said reach |50 being straddled by a forkedportion |5| bent off laterally from the key leg |40.

From the foregoing, it will be clear that upon depression of any one of several carriage return keys there ensues always a power operated clutchthe carriage return drive. For effecting returns under control of the key S, the latter need merely close the carriage return clutch inasmuch as the counterstop 62 is normally the proper location or elevation for intercepting the carriage by cooperation with the short .return defining stop 56S. For properly controlling the return of the carriage to intermediate and full return positions, as defined respectively by the stops 56I and 561 there is effected in response to the operation of the keys I and F a relocation of the oounterstop 62, respectively into cooperative range with the stops I and F. Such relocation is preferably effected by motor-power, through the agency oi.' the same actuator |05 which has been described to close the carriage return clutch. To this end the upright counterstop arm 50 has near its lower end a pin |52 which has overlying an arm |53 of a transversely extending lever |54 pivoted as at |55 to an anguiar bracket |56, see Figure 4, rising upwardly from a cross member |51 of the machine frame work. The lever |54 includes a rightwardly extending arm |58 overlying a dinerentiaily positionable link or slide |60 reaching to the front of the machine and having an ear posed directly in front of the upright arm v|45 of the bail |36. Normally said slide rests at the rear, as at |62, slidingly upon the frame cross member |51 and at the front it is guided in a perforation of the key guiding comb 5|, see Figure l. Upon each operation of the actuator |05, as hereinbefore stated, the belll crank |00 is operated, the throw being imparted to the bell crank |08 being uniform at all times. Said Abell crank |03 has a stepped branch |63 which with the slide |60 located in two positions progressively more forward than the one shown in Figure l, is capable to impart movements of proper magnitude to the lever |54 to position of the counterstop 62 variously for carriage-return terminating engagement respectively with' the stops I and F. More specifically stated, the slide |60 is formed with two ears |64, |65, extending transversely of the machine and reaching into the operating plane of the stepped bell-crank branch |63. Normally the slide occupies a rearmost position, seen in Figures l and 4, under the tension of a spring |66, and such position is defined by the bail arm y |45 resting against the front of the bar |46. The

yis terminated by the cooperation of understood that operation of this key leaves the slide |80 in its normal rearmost position. `This is clearly illustrated in Figure 9, wherein the mechanism leading tothe carriage return clutch "is shown in operated position and wherein the l power return to an intermediate position, as defined by the stop 68, results in a forward displacement of the slide |60 to an extent that will [place the ear |84 over the higher one of the two steps on the stepped branch |83, see Figure 8. The slide |60 is.then receptive of an upward movement by the bell crank |08 suilicient to,

lower the counterstop into cooperative range with the ystop 68I and out of range with the stop 58S. From Figure 8, it will be perceived that the forward movement of the slide |60 is gaged indirectly by abutment of the lower side of the lever |21 with the top of the bar |46, the lengths of arms |35, |46, being proportioned to give the slide |80 the appropriate forward displacement. It will thus be perceived that depression of the key I is followed by a power return terminated by engagement of the stop 56I with the counterstop 62.

The extent of depression of also the key F is governed by-engagement of the lever |21 with the top of bar |46. The bail |38 when operated by the key F acts upon the lever |21 at a point which is relatively close tothe bail axis, by means of the pin |41 engaging the nose |48 on the lever |21. It will be observed from Figures 7 and 8, that the bail |38 is capable of operation through a greater arc when the key F is operated, as compared with when the key I is operated. This is because the key F acts on the limitedly operable lever |21 through the connection |61, |68, whereas the key I acts on the lever by the connection |32, |33. The relatively great movement oi the bail arm |45 received under control of key F places the slide ear |65 over the lower step on the stepped branch |63. 'I'his lower step being at greater length from the pivot of the bell crank |08 than the said upper step, it followsthat upon clutch closing operation .effected by the actuator |05, the rear end of slide 60 will receive a greater lift. This greater lift is of proper magnitude to lower the counterstop 62 into cooperative range with the extreme return stop'5611 and clear of cooperative range of the stops 56I and 565. It

excessive downward movement, inasmuch as the clutch-closing element ||4 with its shoulder ||4l is given an excessive throw, see Figure 6, to assure an opportunity for thelatch varm |28 to move to eiective position. Thereafter, the power-operated parts, including also the counterstop 58, 82. settle back slightly under the tension of the spring ||1. The final and accurately set position of the counterstop is secured as said parts settle back, preferably by a dog |12 in cooperation with one or another of `two ratchet teeth |1| on the counterstop, the lower one of these teeth being engaged by the dog l|12 when the counterstop settles to position for intermedi- -ate returns, and the upper tooth being engaged with the dog when the counterstop settles to pol .sition for full returns. Said dog 12 is normally held clear of said ratchet teeth, as in Figures 1 and 4, such position being normally prevalent due to a` pitman |18, having at its right end a connection with the element ||4 of the clutch controlling mechanism, and being at its left end associated with the dog 12 'by a pip'and slot connection |13. A light spring |14, see Figure 4, moves the dog yieldingly to effective position whenever the carriage return clutch is being closed and the element ||4 receives a clockwise movement, as seen in Figure 6. The position of counterstop, as varlably determined in response to the operation of several carriage return keys, thus prevails as long as the carriage return clutch remains closed; that ls, as long as the latch member |29 holds the clutch in closed position. The dog |12 ispivoted on a lever 205 but for no other reason but that this lever provides a convenient means of support.

The termination or shut ofi of the carriage return occurs automatically as the'active carriage-return stop, into cooperative range of which is counterstop 82 has been set, runs against the latter. Preferably the shut off isy ailected by two supplemental movements, one such movement lbeing obtained incidental to the operation of the line-spacing mechanism, and the other by a slight displacement of the counterstop 62v by the selected return stop. The requisite'for clutch opening is .thus that the line-spacing latch member |29 for holding the return clutch I closed, has an upright arm |15 whereto a link |18 of a toggle comprising also another link |11 crank |08, the rear end of the slide |60, and the lever |54 constitute a singular power-actuating or positioning mechanism for the counterstop arm 59, that is, these parts constitute a poweractuating mechanism which is not of a multiple nature.

The carriage return clutching operation is slightly delayed in each instance in that the snatch pawl |20 has capacity for a limited pivotal movement on the actuator to crowd itself into engagement with the power drive shaft 42 by reacting against the angular front edge of the plate 44. Such initial pivotaldisplacement of the snatch pawl without imparting movement to the actuator, gives the is linked. The left end of the toggle link |11 is joined to a link |82 by means o-f a pin and slot4 connection |8| and the link |82 has a'pivotal connection at |83 with the counterstop arm 58.- Said link |82 reaches leftwardly into alvertical. guide-slot |84 provided in the housing 6| and,VA rests on a shelf |85 constituting part of a bracket- |86 having a slotted Ibranch |81. `see Figuref3, for guiding the counterstop arm 59 transversely-oi?Av The toggle link |11 has an upf wardly facing nose |88 and the various vmovable the machine.

i parts just described are normally in positions slide |60 time to assume its proper diierential position over the stepped branch 83, preparatory to counterstop setting operation by the latter. The counterstop 58 is given a slightly spring |8|, see Figure 2. the bar' beingfprovided at'opposite ends with diagonal slots |82aaccomg Ibest seen in. Figure 3.

In consequence to the closure of the carriagereturn clutch, as has :been stated hereinbefore,

the latch member A|28 assumes the position seen in Figure 6. This lilexes the toggle |16. |11 up-` wardly so that the toggle nose |68 is then sub-l stantially directly underneath a control bari 18|);-

The latter is mountedfor downward movementon the platen carriage against the tensionoffa modating mounting pins |99 projecting forwardly from a conventional tabulator rack |96 of the machine. While the bar |90 still remains in normal position, the counterstop 62 under the tension of the spring the right side of the perforation 68 in the housing plate 60. It may be noted that regardless of the elevation selected for the counterstop, the extended position of the toggle will be sub- 65 continues to rest against g5,-

stantially the same because the point of articu- 10 lation |83 is shifted 'only over a short range centered substantially at the level of the pin and slotl connection |8|. It has been stated that upon closure of the clutch, the line-spacing mechanism will be actuated by a limited rotation.

of the pulley 86. At the end of such limited rotation, a pin |95 on the pulley 86 engages a hookshaped end |96 of the control bar |90 to displace the latter diagonally downward. Since the toggle link nose |88 underlies the control bar, the 20 upon the pulley 86 during the entire return of 30 the carriage, it follows that the control :bar |90 remains operated throughout the carriage-returning operation. As the carriage approaches its returned position defined by the selected carriage return stop, rightward displacement and the toggle, by being prevented from buckling upwardly by the operated control bar |90, transmits a releasing movement to the latch |29. This allowsrnovement of the carriage-return sition under the power of the spring ||1 and thus terminates the return of the carriage, it being remembered that the clutch-closing actuator |05 returns to normal position immediately after operation.

From the above, it will be understood that an actuation of the control bar |90, as well as a rightward movement of the counterstop 62 is required to cause clutch opening. In the event that takes place, the latch |29 of 25 the counterstop receives a clutch to open clutch poat the time of clutch closure one of the return stops is in engagement with the counterstop, the latch lever |29, due to such clutch closure, will flex the toggle |16, |11 upwardly, and, the counterstop 'being then in its rightward position, the immediate operation of with the accompanying depression of control bar |90, will cause the restoration of latch |29 to clutch-opening position.

The pin-and-slot connection |8| between the toggle link |11 and .the link placement of the counterstop leftwardly by the line-end stop 51, such displacement being uti-- lized to operate a mechanism, hereinafter de-l scribed, fo'r suppressing typing when the carline-spacing mechanism |82 is to allow dis- 60 riage reaches the line end dened by the stop 51.

At the conclusion of every power return of the carriage, the clutch-controlling mechanism assumes the normal, open-clutch position and the pitman |19 is drawn rightwardly to cast off th 10 dog |12, thereby freeing the counterstop arm for restoration to uppermost position by the spring y66. The normal condition of the machine is thus re-established.

I! a power return is past the return stop 6,65, the counterstop during a subsequent advance letter-feed direction will be meeting upwith this stop and possibly also stop 661. For this reason the return stops have inclined undersides |98 which will deflect the counterstops during carriage advance.A The underside |98 of the return stop 68I is shown to have an inclined cam extension 200 in .the form of a plate attached to the rear of the stop and permitting adjustment of the return stop 661' on the rack 55 into close adjacencywith the stop 661. The downward displacement of the counterstop effected by said incimes |98 and the extension 200 is very gradual so as not to impede of the carriage. v

It will be perceived that in differentiation from the structure disclosed in said patent to Helmond, the carriage return clutch of the instant structure is closed positively by motor power and is thereafter held closed positively by a latch. For this reason the drive faces of the opposite clutch teeth of the gear 12 andthe collar 11 can be beveled considerably to permit ease of disengaigement of the clutch under the power of the spring ||1 when the latch member |29 is automatically released at the conclusion of the return. In other words, the torque transmitted across the opposite clutch teeth during power returns is substantially not opposing the opening movement of the clutch, wherefore the release of the latch occurs against a minimum of resistance. The mechanism of the invention provides thus for more dependable closure and opening of the carriage return drive.

In certain classes of billing the return of the carriage is nearly always to the same specific posltion, and only occasionally to other returnpositions. For example, where the first column on a lbill is the Date column, and there are usually to be made several entries under the same date, the most frequently required return of the carriage may be to a column just short of extreme return position. In other cases where successive entries are usually made at different datesythe most prevalent return may be to an extreme return position. Still in other cases it may be nearly always desired to return the carriage to another column-defining return position.

The machine of the invention includes means whereby the carriage, upon reaching a certain positionvin its advance, is caused to return automatically, without special attention by the operator, to a particular one of the positions defined by the stops 56", 661, 66S, the particular p0- sition being predeterminable by simple means.

Referring now more particularly to Figure 3, it is seen that the line-end stop 51 shown in this 'figure is equipped' with a plate 20|, having bevel or cam edge 202 which, as the stop 51 approaches the counterstop 62 will cam thel latter downwardly below cooperative range with the return stop 66S, into line with the intermediate return stop 561. Where the work requires most frequently a full return of the carriage, the lineend stop 51 is equipped with a plate 20| that has a cam edge 203 devised to depress the counterstop into cooperative range return stop 561', see Figure of the carriage is to be most frequently to the position denned -by the stop 56S, there need not be a cam plate 20| as the counterstop is normally in cooperative position with respect to this stop, see Figure 16.

In any event, as the stop face 20| of the line and stop 51 engages the counterstop 62, the counterstop is in the cooperative range of the detrimentally the letter-feed with the carriagey 15,. If the return proper return stop and is subsequently swun leftwardly within the opening 55 for inciting closure of the carriage-return clutch, preferably by causing a power operation of -the clutchclosing actuator |05, in a manner presently to be described.

n the stud 03 whereon the counterstop arm 59 is swingable, there is pivotally mounted a lever 205 comprisingv an up-reaching arm 205 and an arm 201 reaching leftwardly. 'I'he lever` 205 is operated by the displacement of counterstop 02 effected at line ends, by means ofa pinl on the counterstop arm 55. The lever arm 201 ends at the right in a finger normally overlying directly a rearward branch 2II of the, engaging lever |22 for the actuator |05. A spring leaf 2|2 normally held upon the arm 201 to partake in its movements, underlies resiliently the said lever branch' 2| I, and when the counterstop arm is being displaced leftwardly at line ends, said lever branch 2| is acted upon by said spring leaf 2|2 to engage the actuator |05 for operation by the constantly driven power shaft 42. There ensues thus a clutch closing operationfor the carriage return drive, via the aforedescribed train of Parts |01, |08, III to'll and 80 and 8|.

, Inasmuch as the counterstop 82 assumes cooperative relation with the proper return stop as the carriage reaches the line end position, it follows that as a result of the clutch closure, the dog |12, if swung to effective position, will maintain said cooperative relation. Remembering here that closure of the clutch results 'in the movement of the dog |12 to effective position, it is clear that throughout the return of the carriage the counterstop is maintained in the cooperative range with the same return stop which is automatically selected at the outset of the re-v turn. As in the case of key-initiated returns, the latch member |29, upon the automatically effected closure of the clutch', yassociates itself with the shoulder IM'l to maintain the clutch closed. The behavior of the toggle |16 and |11 and associated mechanism thereafter is the same as in the case-of key-initiated returns. Thus at plate 20| thereon were rigidly fastened upon the stop, the encounter of the counterstop 52 with the cam face 202 would be apt to swing the stop about the point 2 I0 to released position. To prevent or counteract this, the cam plate 20| is carried upon the stop 51 by means of a pivot stud 2I1 and has a branch 2| 8 provided with ears straddling the upper and lower side of the bar 55. `It will be seen that-by this arrangement an upward thrust, on the cam plate 20| will tend to force the stop 51 into firmer interlock with the rack bar,

terminate unevenly and itis desired to effect the return of the carriage only under the control of the termination of the automatic returns, the

counterstop receives a rightward displacement from the return stop engaged, and the dog |12 automatically withdraws from the lteeth |1I on the counterstop arm 59, causing the counterstop to reassum'e its normal elevation shown in Figures 1, 3, and 4 under the tension of the spring 65.

carriage-return stops, as well as also the lineend stop 51 is adjustably locatable along a carriage-supported rack 55. Describing now in detail the structure o f these stops, it will be seen from the drawings, see particularly Figures 1 and 3, that they are formed with a channel wherein the rack 55 is contained. The s'tops are in resilient contact with the rack bar along the lower side of the channel and each stop has a detent tooth-inset 2I3 for engagement in the notches of the rack bar. The channel in each stop a'ords along the topof bar 55 a clearance 2M wherein there is accommodateda bowed leaf spring 2I5, the clearance being such as to allow the stop topivot against the tension of the spring 2I5 at a point 2| 5 when pressure is applied upon the serrated finger hold 2I9. Pressure Aso applied frees the tooth 2 I 3 from the rack teeth and allows adjustment of the stop along the rack. i

In the case of the line-end stop 51, if the cam As has been stated hereinbefore, the several` the return keys. On the other hand, it is a desideratum that the operator be apprized of the approach of line end. The latter is most conveniently done under control of the line-end stop 51, which may sound a bell, not shown, a few letter-feed spaces before the engagement of the counterstop by the line-end stop, this constituting a first warning. If then typing is continued until the counterstop is displaced by the line-end stop 51, the typing instrumentalities are rendered inoperative in substantially the manner disclosed in the application of Harry C. Yeager, Serial Number 470,868, filed December 31, 1942, which matured as Patent No.'2,362,229 November 7, 1944. In order that the actuator-engaging lever |22 may remain unaffected by the displacement of the counterstop 62', the leaf spring underlying the lever arm 2I| is adapted to be incapacitated. To this end the leaf spring 2|2 isv pivotally carried on the arm 201 by a, stud 220, but is adapted to be either propped up or lowered under control of a manipulative member 22|, having an accessible finger piece 222. Said manipulative member at the left end has a pin-and-slot connection 223 with the lever arm 201 and presents a nose 22| to the spring 2|2. When automatic carriage returns are to ensue at the line ends, the manipulative member 22| is set to the position seen in Figures 3 and 14 and the nose then maintains the spring 2|2 in contact with said lever arm 2| I. matic returns are not desired, as when doing regular correspondence, the manipulative member 22| is slid leftwardly to the position seen in Figures 6 and 1l, wherein the. nose 224 enters an angular bend 225 in the spring, such bend providing for a drop of the spring about the pivot stud 220, away from the leverarm 2I I. Thus, with the setting of manipulative member 22| as seen in Figure 11, the displacement of counterstop leftwardly by the line-end stop 51, in accordance with the showing in said figure, has no relect on the lever |22, and thus also no effect on Athe clutch-closing actuator |05. The manipulative member 22| is supported and guided at its right end in a perforation 226 provided on the machine wall 20. During actuation of the lever 205, said manipulative member swings idly about the location of said perforation.

Line-end and safety locks If autokey-operated part lock slide is slidably accommodated, as at 233, on top ci the bar 53. and is normally so positioned that its teeth 228 vare situated between the working paths of the rear ends of the actuator links. The counterstop 55 transmits motion to said slide by means of a lever 23| pivoted upon a stud 232 rising from the cross bar |51 of the machine. Said lever 23| is forked at the rear to straddle the counterstop arm 53 and, at the front, is kept resiliently in `engagement with an ear 233 by a tensile spring 234 anchored oppositelyl to said lever and said slide. Under normal conditions, the lever 23|, when actuated, will displace the slide 221, said ear 233 being maintained in constant contact with the lever; but, should the slide 13 be obstructed in its movement, the spring 234 will yield temporarily. The carriage letter-feeds following the disengagement of the last-actuated type actuator 32, that is, after such actuator has been elevated clear of the power shaft 42. It will thus be seen that in .the normal operation of the machine, the returning type-actuators 32 allow the unobstructed movement of the lock slide 221 to effective locking position, regardless of whether the operator may linger on the last operated key.

Should the manipulative member 22| be set for elimination of automatic returns and should it be desired to type beyond the margin defined by the stop 51, the operator may depress a margin release key 234, schematically shown in Figure 11, and having a rear-end 235 for operating .the counterstop setting lever A|54 counterclockwise. If such margin release key is operated, see Figures 3, .4, and 1l thecounterstop 62 is withdrawn substantially flush with the plate 60 and vis ineifective to restrict the range of carriage movement.

In 'the case of automatically initiated carriage returns, the lock slide 221 will be held in operated position during the entire return of the carriage, since during such return the counterstop 62, after operation by the line-endv stop 51, is maintained in its leftward position by the action of the control bar |90 on the toggle |16, |11. When the carriage is returned under control of one of the carriage return keys, said lock slide 221 will be actuated in consequence of the operation of the contro1 bar |90, incidental to the line spacing operation, which always precedes the return of the carriage.

Besides suppressing typing during carriage returns, it is also desired to` suppress or make` infeasible certain other operations such as back spacing, tabulating. Viceversa it is desired that carriage returns can only be instituted if such keys as the back spacing key, the tabulatcr key and the margin release key are in normal position. To this end, the bar |46 at the bottom of the key-lever comb plate comprises an elongate cage for a series of blocks 236, 231. Said cage is closed up at each end, as at 238, and the actuator engaging lever |22, by entering between two of. the blocks 231, is adapted to crowd all the other blocks 236, 231 against each other. The blocks numbered 231 the block 236, consists of a bar which is nearly co-extensive with the breadth of the keyboard. A plate 240 retains said blocks in the cage |46 and the cage has operating clearances 244 for the lever |22 and other parts, such as a tabulator- 24|, a part 242 connected to a tabulator-stop-setting key, not shown, and a back-space-key operated part 243, each 'of these parts being adapted to crowd said blocks by en-t trance between two of them. It will thus be perceived that when such special functions as tabuassale are in the form of rolls, whereas lating, tabulator stop setting, and back spacing are being performed, the actuator engaging element |22 is blocked against operation and that, therefore, also the several carriage return keys are inoperable. Should any of the said special functions be in progress: as the line-end stop 51 encounters the counterstop 02 for instituting an automatic return; the operation of the actuator engaging 'lever |22 will be delayed until said lever is given the opportunity to enter between the blocks 231. Such delay is facilitated by the provision of the spring leaf 2|2 which will temporarily yield. Once the lever |22 is operated, the elements v 24|, 242, 243 associated respectively with the tabulating key mechanism, the tabulator stop-setting-mechanism and the back spacing key are blocked against operation.

To assure maintenance of the lever |22 in operated position throughout any return, whether manually or automatically initiated, the arm ||6 on the yoke shaft clutch has integral 'therewith an arm 245 having a link 246 articulated thereto and extending through a slot 248 -in the right hand wall of the machine. Said link normally underlies idly the arm 2|| of the actuator-engaging lever |22 and has a cam face 250 by reason of which the link is raised during clutch closure thereby to assure maintenance of the arm 2|| in operated position throughout returns, especially during returns which are instituted by the return keys with the machine conditioned for regular correspondence, that is with the spring uncommunicative with the lever |22. This assures always maintenance of the lever |22 in operated position following closure of the carriage return clutch and pending the return of the carriage.

Although it is highly desirable to suppress operation of the tabulator key or keys, the back spacing key and the tabulator stop set-key when the carriage has reached the line-end position and an automatic return has been instituted, the operation of such keys must not be suppressed when the carriage reaches line end position in doing regular correspondence, that is, when the counterstop 62 is operated merely for actuating the line-end lock-slide 221. In this connection, it is important to note that setting of the manipulative member 22| to the'position seen in Figure 11, for disabling the automatic carriage return instituting mechanism, also prevents the locking of said special function keys. This is because the counterstop 62 is then incommunicative with the lever |22 so that the latter will not enter between the locking blocks 231.

In Figure 1'1 is shown a rear elevation of a line end stop 51 having thereon a modified cam plate 25| for positioning the counterstop 62 as the carriage reaches the line end position. Said cam plate may be located, on the rear of the stop 51 in three different positions by means of a headed screw 252 having a thickened section 253 underneath the head for entrance into any one of the three enlargements 254 in a slot 255 of the plate. The screw 252 is partially screwed out for shifting the cam plate, the slot 255 being large enough to be slid transversely to the screw shank. In the full line position of the plate shown, the latter is capable of setting .the counterstop for intercepting the carriage in cooperation with the return stop 561. Two other plate positions are indicated by dot and dash lines, one being to set the counterstop forcooperation with the carriage return stop 561 and the other being merely to 75 render the cam inoperative. One plate thus 30 of the carriage return 'and described is admirably adapted te fulflilihe Lobjects stated, it is to be understood that it is not intended tov confine the invention to the form pr embodiment herein described, for the invention is susceptible oi' embodiment in various forms,

lall coming within the scope of the claims which follow. t A

What is claimed is: t 1. In a business machine having a frame and having a carriage movable on said frame, a motor, a normally open carriage-return-drive intermediate said motor and said carriage, a plurality of carriage return stops, a counterstop mounted for different settings transversely of carriage movement from a normal position, said return stops and the counterstop being oppositely associated with the frame and the carriage, one of said return stops being normally in return-stopping range with said counterstop and the other return stops being arranged so that in each different setting given to the counterstop there will be an- -other of said return stops in return-stopping range with the counterstop, power means, capable of varying operations, either to close said returndrive or to close said return-drive and concomitantly to give said counterstop one o f said settings, and means to render said power means selectively effective for said varying operations, said power means comprising a single power actuator.

2. In a business machine having a frame and having carriagey movable on` said frame, a motor,

"a drive for returning said carriage, a normally open carriage return clutch intermediate said motor and said drive, aplurality of carriage return stops, a counterstop mounted for different settings transversely of carriage movement, said return stops being arranged so that in each setting of said counterstop there will be a diierent return stop in carriage return stopping range with the counterstop, means to set said counterstop selectively, and concomitantly to close said carriage return clutch, said last means comprising key-means capable of selective operation, and

power devices comprising a single power actuator, variously controllable by selective operation of said key-means, to close said clutch and to eifect various selective power-.settings of said counterstop, and means responsive to the return limiting encounter of any of said returnstops with said counterstop to opensaid carriage return clutch.v

establish` different limitsof return for the carriage, means to render said power return means automatically ineffectiveas the carriage member reaches any of seid selectively established limits of return, and means including control means on one of said members, adapted by reason o! car- 'aandeel cal" , 9 riage ,travel to effectuate automatically said power return means and to effect automatically. particular return-defining selection of said abutments, 'said control means comprising a carriage return initiating-element and means capable of diilerent association vwith said element for pre-v determining diilerent return-defining cooperative selections of said abutments.

4. In a business machine having a frame member and a carriage member movable on said frame vmelnber,`means to advance said carriage member in one direction, normally ineiective power return means for said carriage member, a plurality of return stops on one of said members, a counv terstop supported fon the other member for diiferent settings transversely oi.' the carriage member and for restricted movement in opposite directions parallel with the carriage, said return stops beingfarranged `so that in each setting of said counterstop there willbe a diilerent return stop in cooperative range with the counterstop,

`means to set said counterstop selectively to said positions andv concomitantly to render said power return lmeans effective, means whereby during power returns of the carriage said counterstop is movable in one v oi?- said opposite directions .by whichever return ,stop is cooperative, and means to render said power return means automatically ineiective responsive to movement of said counterstop ondts supporting member in said one direction by the cooperative return stop at the end of the carriage return.

5. In 'a business machine having a frame memn ber and having a carriage member movable in 4advance and in return direction on said frame member, means to advance said carriage member on said frame member, normally ineiective power return means for said carriage member, a plurality of carriage return stops on one of said members, a `counterstop supported on the other one of said members for different settings transversely o1' the carriage member and for restricted movement in opposite directions parallel with the carriage member, said return stops being arranged so that in each setting'of said counterstop there will be a different return stop in cooperative range with said counterstop, a carriage vreturn initiating stop also on said other mem.

ber, said counterstop being movable in one -oi said opposite directions by said return-initiating stop and in the vother `direction by which ever return stop may be cooperative with the counterstop, means to render said power return means effective and ineil'ective respectively by said opi posite movements of said counterstop, andl carriage controlled means for automatically giving said counterstop one of said settings.

6. In a business machine having aframe member and a carriage lmember movable on said frame member, means to advance said carriage member in one direction, normally ineffective' power return means for said carriage member, i a plurality of return stops on one of said members, al counterstop supported on the other memberV for diierent settings transversely of the carriage member and for restricted movement in opposite directions parallel vwith the carriage, said return stops being arranged so that in each setting of said counterstop there will Ybe a difter- .f

Vent return stop fin cooperative rangeiwith lthe counterstop,l means to give said counterstop selectively said dinerent settings and concomitant- -`1y to render said power return means effective,

saidgiving means comprising, means capable oi selective operation, and normally quiescent power y positions, transversely. of

setting means variously responsive to the selectively operable means to set said counterstop, means whereby during power returns oi.' the carriage said counterstop is movable in one of said f ing member by the cooperative return stop at the end of the carriage return.

7. In a business machine having a frame member and having a carriage member movable on said frame member in advance and return directions, means to advance said carriage member on said frame member, normally ineffective power return means for saidcarriage member, a plurality of carriage return stops onv one of said members, a counterstop arm extending transversely of the carriage member and supported on the other one of said members for different settings transversely of the carriage member and for restricted swinging movement o1' a counterstop end thereon in parallel to the carriage member, said return stops being arranged so that in each setting of said counterstop arm, there will be a-different return stop in cooperative range with said counterstop end. means to give said counterstop arm said different settings selectively, and concomitantly to render said power return means eifective, meanswhereby vduring the return of-the carriage and counterstop arm is swingable in one of said opposite directions through engagement of its counterstop and with whatever return stop may be in cooperative range therewith, and means toV render said power return means automatically ineffective when said counterstop arm is swung in the saidone direction by any cooperative return stop during :power return of the carriage.`

8. In a business machine having a frame and having a carriage movable on said frame, means to advance the carriage in one direction, normally ineffective powerreturning means for said carriage, means to effectuate said power returning means automatically upon advance of the carriage to a return initiating position, stop means and a counterstop oppositely on the car- `riage and said frame, said counterstop being settable to different return selecting position transversely of the carriage and said stopA means comprising for every set position of the counterstop a different return-position-deflning stop in return limiting range with the counterstop. means biasing said counterstop toward normal position, means including an element on the carriage to effect movement of the said counterstop to one of said set positions in response to movement .of the carriage through a certain zone, means to hold said counterstop automatically following movement to the said set position, and

means to render said power returning means automatically ineffective at the conclusion of each limited return and concomitantly to release said holding means for return of the counterstop to normal position.

9. In a business machine having a frame and having a carriage movable on said frame, a motor drive for returning said carriage including a normally open carriage return clutch, stop means and a counterstop oppositely on the carriage and said frame, said counterstop being settable from a normal position to different 'return selecting the carriage, and said stop means comprising for every said .position `of the counterstopl a different return-positiona,sos,44'i

denning stop in return limiting range with the counterstop, means resiliently' influencing said countersp toward normal position, carriage controlling mechanism movable from an open to a closed clutch position, means including control means on the carriage, effective .at line ends, to cause movement of said clutch\ controlling mechanism from opento closed clutch position and .to effect a movement of said counferstop to one of the said set positions, means actuated by said clutch controlling mechanism to hold said counterstop set while the clutch controlling mechanism is in closed clutch position, and lmeans to effect movement of said clutch controlling mechanism from closed to open clutch position responsive to a return limiting encounter of any of the return stops with said counterstop, whereby said holding means is rendered ineffective at the end of each return and whereby said'counterstop is then free to assume its knormal position.

10. In a typewriter having a frame and having a carriage movable on said frame, means to advance the carriage in one direction, two elements, oppositely on the frame and the carriage, one operable by the other incidental to the carriage advancing to a certain position, normally ineifective power means for returning the carriage, typing instrumentalities, including type-keys, means operable to lock said typing A instrumentalities against effective operation, keys other than the type keys, other locking means operable for locking said other keys, means responsive to operation of said one element by the other to render said power return means effective and to operate both said locking means, and manipulative means to render said responsive means incapable of rendering said power return means effective, and to render concomitantly said other locking means inoperative without also rendering the nrst said locking means inoperative.v

l1. In a typewriter having a frame and having a carriage movable on said frame, means to advance the carriage in one direction, two elements, oppositely on the frame and the carriage, 45 one operable by the other incidental to the carriage advancing to a certain position, normally ineffective power means for returning the carriage, typing instrumentalities, including typekeys, means operable to lock said typing instru- 50 mentalities against effective operation, operable parts including a plurality oi' keys other than type-keys, another lockingI means effective upon operation of any one of said parts to lock the remainder of -said parts against operation. means responsive to operation the other, to render said power return means effective and substantially concomitantly to operate the first said locking means and one of said parts associated with the second locking means,

so and manipulative means to render said responof said one element by turn means effective, and concomitantly to render said responsive means unable to operate said one of said parts, but without also rendering it unable 05 to operate said first said locking means.

l2. In a business machine having a frame and having a carriage movable on said frame, abutments oppositely onsaid frame andl said carriage, arranged for different relative positioning transversely ofthe carriage to establish diiferent positions of arrest for the carriage, means including a member movable to various positions to effect different relative positioning of said abutments, a-plurality of keys, a singular, normally ineffective power-positioning mechanism sive means incapable of rendering said power refor said member, responsive to o counterstop, a plurality of keys, a singular, normally ineffective power-setting mechanism for said counterstop,.and means responsive to operasaid frame yand said carriage, said counterstop being mounted for movement to diierent position of diiferent of said keysto render said singular power-positioning mechanism variously effective to power-move' said member to said different positions. i l 13. In a business machine having a frame and having a carriage movable on said frame, 'a plu- Irality of stops land a counterstop, oppositely on said frame and said carriage, said counterstop, being mounted` for movement to" different posil tions transversely of the carriage, and said stops being arranged .so that in. each of the different positions of said counterstop there will'be adifferent stop in carriagestopping range with said tion of diil'erent of said keys to render said singular power-setting mechanism variously effective to power-move said member to said different positions.

14. In a business machine having a frame and having a carriage movable-on said frame, a plurality of stops and a counterstop,` oppositely' on tions transversely of the carriage, and said stops being arranged so that in each of the diiferent positions of said counterstop there will be a different stop in carriage-stopping range with said counterstop. a power operator, a sole, normally idle power-actuator capable of beingtransitorily connected with said operator to execute a uniform operating stroke, a plurality of keys, a singular mechanism operatively associating said actuator with said counterstop, and means to condition said mechanism variously by operation of different of said'keys so that an operating stroke of rections, abutments oppositely on said frame and said carriage, arranged for selective relative positioning transversely of the carriage to Yestablish diilerent limits to which said motor means may move the carriage in said onev direction,

means including a member movable 'from a normal position to diilerent other positions to select o5 said abutments variously for cooperation, selectively operable keys-power means responsive to diil'erent selective operation of said keys to move said member to different ones of said positions and to render said motor means o ineil'ective, ,cu means to hold said member in said diierentpositions upon power-movement thereto, said last lmeans comprising a movable element to hold or release said member, means responsive to operation lof any of said keys to effectuate said motor 05 means for moving the carriage in said one direction, andmeans responsive to'motor-movement of the carriage to any of the limits established by said abutments, to render said motor means ineffective and concomitantly-v to release said holding element and cause thej return of said member tosaid normal position.

16. In a businessmachine having acarriage movable in opposite directions across said frame, normally ineffective Amotor means to move the l assaut tings transversely oi' carriage movement, and said counterstop,

carriage in at least one of said directionaa plu-l rality of stops and acounterstop, oppositely. on the frame and said can'iage for variously limiting .'.motor-movement of the carriage. in said one direction, said counterstop lbeing mounted for setting movement transversely' of the carriage to diiferent positions, and said stops being arranged so that in each lsetting of said counterstop there will be a different one of said stops in movementlimiting range with said counterstop, means for urging said counterstop to normal position, selectively operable keys, power means rincluding a sole power actuator, responsive to dierent ones of said keys to move said counterstop to different ones of said positionameans to latch said counterstop upon setting movement to any one of said positions, said latching means comprising a latching member movable into and out of engagement with said counterstop, means responsive to operation of anyone oi' said keys to effectuate said motor means for moving the earriage in said one direction, and means responsive to motor movement of the carriage to any of thev established movement limits, to render said motor means automatically .ineffective and concomitant'ly to release said latching member and to cause the return of the counterstop to normal position by said urging means.

17.v In a business machine having a frame and having a carriage movable in letter-feed and return direction on said frame, carriage return terminating abutments oppositely on said frame and said carriage, arranged for selective relative positioning transversely of the carriage to establish different limits of return for the carriage, normally ineffective motor means for returning the carriage, means including a member movable to various positions to select said abutments variouslyqfor cooperation, selectively operable control means, means comprising a sole, normally idle power actuator, responsive to different selective operations of said control means to move said member to diil'erent of said variouspositions by power derived from the said sole actuator, means to hold said member upon movement to said various positions, means toeectuate said motor means in responseto each selective operation of said vcontrol means, and means responsiveto each carriage-return-limiting encounter of said abutments to render said motor means ineifective and to release said holding means,

18. -In a business machine having a frame and having a carriage movable in letter-feed and return direction en said frame, a plurality of carriage return stops and a carriage return counteroppositely'on the frame and the carriage, said counterstop being mounted for diil'erent setstops being arranged so that in each different setting of said counterstop there will be a different stop in carriage-return-limiting range with said normally ineiective motor means for returning the carriage, means to set said counterstop selectively into stopping range with said different lcarriage stops,4 comprising, key-means capable of selective operation, power means responsive to any of said selective operations of said keyy means to leil'ect a single operatingstroke, and means operable by said power means and variously controllable `by selective operation of said key-means to cause di'erent power settings of said counterstop to be eiected in response to diiferent selective operations of said key-means,

means to hold said counterstop in the power-sei'l position, means to effectuate said motor means carriage, to establish different limits of return for said carriage, selectively operable control means, and means comprising a sole, normally idle power actuator, responsive to different selective operationsv of said control means to effectuate said motor means and concomitantly to position said abutments selectively by power derived from said sole actuator.

20. In a business machine having a frame and having a carriage movable on said frame, means to advance the carriage in one direction, normally ineffective motor means to return the carriage in the other direction, carriage return terminating abutments oppositely on the carriage and said frame adapted to define at least two different limits of return by selection of different abutments for cooperation, a pair of said abutments being normally selected for cooperation to define a normal limit of return, and a pair of abutments being selectable for cooperation to define ani other limit of return, power means capable of either to effectuate said motor varying operations, means, or to effectuate said motor means and concomitantly to select that pair of abutments for cooperation which denes said other limit of return, and means to render said power means selectively effective for said varying operations, said power means comprising a sole power actuator.

21. In a business machine having a frame and having a carriage movable on said frame, means to advance the carriage in one direction, normally ineffective motor means to return the carriage, abutments oppositely on the frame and said carriage, arranged and selectable variously for cooperation to establish different limits of return for the carriage, operable means, differentially conditionable so that in dependence of its condition, operation thereof will effect different cooperative selections of said abutments, a plurality of carriage return keys, operable selectively to differentially condition said operable means, power means adapted to be rendered effective to operate said conditionable means, and means responding to operation of any one of said keys after the conditioning of said conditionable means to render said power means effective.

22. In abusiness machine having a frame and having a carriage movable on said frame, means to advance the carriage in one direction, normally ineffective power return means for said carriage, means to effectuate said power return means automatically upon advance of the carriage to a return initiating position. stop means and a counterstop oppositely on the carriage on said frame, said counterstop being settable from lectively operable key-means a normal position to dinerent return selectins positionstransversely of the carriage, and said stop means comprising for every set position of the counterstop an defining stop in return limiting range with the counterstop. means to render said means automatically ineffective' at thev conclusion of each limited return, means including seto set said counterstop variously to said return selecting positions, and concomitantly to effectuate said power return means, means including an element on the carriage to set said counterstop to one of the said set positionsin response to movement of the carriage through a certain zone, means operated automatically in consequence of each return-limiting cooperationof the counterstop with said stop means t'o render said power return means ineffective, and means controlled by said rendering means to cause restoration of said counterstop to said normal position.

23. In a business machine having a frame member and having a carriage member movable on said frame member, means to advance the carriage member in one direction, normally ineffective power return means for said carriage member, carriage return terminating abutments, oppositely on the carriage member and said frame member, arranged and selectable variously for cooperation to establish different limits of return for the carriage, means to render said power return means automatically ineffective as the carriage member reaches any of said selectively established limits of return, means including a control element predeterminedly settable to different positions ln parallel with the direction of movement of said carriage member to cause automatically the effectuation of said carriage return means in response to advance movement of the carriage member to a particular position, and means comprising a device capable of different association with said predeterminedly settable control element, for predetermining different return-defining selections of said abutments.

24. In a business machine having a frame member and having a carriage member movable on said frame member, means to advance the carriage member in one direction, normally ineffective power return -means for said carriage member. carriage return terminating abutments, oppositely on the carriage member and said frame member, arranged and selectable variously for cooperation to establish different limits of return for the carriage, means to render said power return means automatically ineffective as the carriage member reaches any, of said selectively established limits of return, means including an element predeterminedly adjustable to different positions to cause effectuation of said power return means in response to the advance of the carriage to a particular position, and means comprising a member adjustable along with said element to effect automatically a particular return defining selection of said abutments in association` with each power return of the carriage resulting from advance of the carriage to the said position.

HARRY C. YAEGER.

individual return-positionpower return l l Certicate of Correction Patent No. 2,393,441. January 22, 1946.

HARRY C. YAEGER It is hereby certified that error appears in the printed specification of theaboifc numbered patent requiring correction as follows: Page 10, first column, line 31, for and counterstop read said counterstop; and that the said Letters Patent should be read with this correction therein that the same may conform to the record of the case in the Patent Oice. Signed and sealed this 14th day of May, A. D. 1946.

[sun] LESLIE FRAZER, f

First Assistant Commissioner yoj Patents. 

